Other
Scientific paper
Oct 1965
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1965natur.208..275a&link_type=abstract
Nature, Volume 208, Issue 5007, pp. 275-276 (1965).
Other
38
Scientific paper
IN previous experiments at Jodrell Bank the angular sizes of discrete radio sources have been investigated by means of long baseline interferometers1,2. The highest resolving power used previously was obtained during observations at a wave-length λ = 0.73 m with telescopes 180,000 wave-lengths apart (134 km). Four quasi-stellar and one unidentified source were found to be unresolved in those observations. Their angular sizes were thus shown to be smaller than 0.4 sec of arc. In a further attempt to resolve these sources another experiment has been carried out using the Mark I 250-ft. radio telescope at Jodrell Bank, and one of the 82-ft. radio telescopes operated by the Royal Radar Establishment, Malvern. The separation of these telescopes is 127 km, in a direction which is close to north-south. This interferometer worked on a wave-length λ = 0.21 m, so that the maximum resolving power was more than three times greater than had been obtained in the previous observations. The effective resolving power changes as sources are observed in different directions, but its maximum value is greater than 600,000 wave-lengths for most sources. With this baseline the output fringe frequency produced as the radio source moves through the lobes of the interferometer pattern varies with hour angle from 0 to as much as 40 c/s. An almost identical frequency was produced continuously by a digital `fringe speed machine' and this was subtracted from, the interferometer output, so that the fringe patterns displayed on the chart recorder were normally slower than 0.5 cycles/min. A microwave link system was established between the two observatories, via two repeater stations. A new very-high-frequency phase-locking system was also developed, with equipment at each site.
Adgie R. L.
Frost Albert D.
Gent H.
Palmer Henry P.
Rowson B.
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